/******************************************************************************
 *
 * Project:  GDAL Utilities
 * Purpose:  Command line application to convert a multidimensional raster
 * Author:   Even Rouault,<even.rouault at spatialys.com>
 *
 * ****************************************************************************
 * Copyright (c) 2019, Even Rouault <even.rouault at spatialys.com>
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files (the "Software"),
 * to deal in the Software without restriction, including without limitation
 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
 * Software is furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included
 * in all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
 * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
 * DEALINGS IN THE SOFTWARE.
 ****************************************************************************/

#include "cpl_port.h"
#include "commonutils.h"
#include "gdal_priv.h"
#include "gdal_utils.h"
#include "gdal_utils_priv.h"
#include "vrtdataset.h"
#include <algorithm>
#include <map>
#include <set>

/************************************************************************/
/*                     GDALMultiDimTranslateOptions                     */
/************************************************************************/

struct GDALMultiDimTranslateOptions
{
    std::string osFormat{};
    CPLStringList aosCreateOptions{};
    std::vector<std::string> aosArraySpec{};
    std::vector<std::string> aosSubset{};
    std::vector<std::string> aosScaleFactor{};
    std::vector<std::string> aosGroup{};
    GDALProgressFunc pfnProgress = GDALDummyProgress;
    bool bStrict = false;
    void *pProgressData = nullptr;
    bool bUpdate = false;
};

/************************************************************************/
/*                        FindMinMaxIdxNumeric()                        */
/************************************************************************/

static void FindMinMaxIdxNumeric(const GDALMDArray *var, double *pdfTmp,
                                 const size_t nCount, const GUInt64 nStartIdx,
                                 const double dfMin, const double dfMax,
                                 const bool bSlice, bool &bFoundMinIdx,
                                 GUInt64 &nMinIdx, bool &bFoundMaxIdx,
                                 GUInt64 &nMaxIdx, bool &bLastWasReversed,
                                 bool &bEmpty, const double EPS)
{
    if (nCount >= 2)
    {
        bool bReversed = false;
        if (pdfTmp[0] > pdfTmp[nCount - 1])
        {
            bReversed = true;
            std::reverse(pdfTmp, pdfTmp + nCount);
        }
        if (nStartIdx > 0 && bLastWasReversed != bReversed)
        {
            CPLError(CE_Failure, CPLE_AppDefined,
                     "Variable %s is non monotonic", var->GetName().c_str());
            bEmpty = true;
            return;
        }
        bLastWasReversed = bReversed;

        if (!bFoundMinIdx)
        {
            if (bReversed && nStartIdx == 0 && dfMin > pdfTmp[nCount - 1])
            {
                bEmpty = true;
                return;
            }
            else if (!bReversed && dfMin < pdfTmp[0] - EPS)
            {
                if (bSlice)
                {
                    bEmpty = true;
                    return;
                }
                bFoundMinIdx = true;
                nMinIdx = nStartIdx;
            }
            else if (dfMin >= pdfTmp[0] - EPS &&
                     dfMin <= pdfTmp[nCount - 1] + EPS)
            {
                for (size_t i = 0; i < nCount; i++)
                {
                    if (dfMin <= pdfTmp[i] + EPS)
                    {
                        bFoundMinIdx = true;
                        nMinIdx = nStartIdx + (bReversed ? nCount - 1 - i : i);
                        break;
                    }
                }
                CPLAssert(bFoundMinIdx);
            }
        }
        if (!bFoundMaxIdx)
        {
            if (bReversed && nStartIdx == 0 && dfMax > pdfTmp[nCount - 1])
            {
                if (bSlice)
                {
                    bEmpty = true;
                    return;
                }
                bFoundMaxIdx = true;
                nMaxIdx = 0;
            }
            else if (!bReversed && dfMax < pdfTmp[0] - EPS)
            {
                if (nStartIdx == 0)
                {
                    bEmpty = true;
                    return;
                }
                bFoundMaxIdx = true;
                nMaxIdx = nStartIdx - 1;
            }
            else if (dfMax > pdfTmp[0] - EPS &&
                     dfMax <= pdfTmp[nCount - 1] + EPS)
            {
                for (size_t i = 1; i < nCount; i++)
                {
                    if (dfMax <= pdfTmp[i] - EPS)
                    {
                        bFoundMaxIdx = true;
                        nMaxIdx = nStartIdx +
                                  (bReversed ? nCount - 1 - (i - 1) : i - 1);
                        break;
                    }
                }
                if (!bFoundMaxIdx)
                {
                    bFoundMaxIdx = true;
                    nMaxIdx = nStartIdx + (bReversed ? 0 : nCount - 1);
                }
            }
        }
    }
    else
    {
        if (!bFoundMinIdx)
        {
            if (dfMin <= pdfTmp[0] + EPS)
            {
                bFoundMinIdx = true;
                nMinIdx = nStartIdx;
            }
            else if (bLastWasReversed && nStartIdx > 0)
            {
                bFoundMinIdx = true;
                nMinIdx = nStartIdx - 1;
            }
        }
        if (!bFoundMaxIdx)
        {
            if (dfMax >= pdfTmp[0] - EPS)
            {
                bFoundMaxIdx = true;
                nMaxIdx = nStartIdx;
            }
            else if (!bLastWasReversed && nStartIdx > 0)
            {
                bFoundMaxIdx = true;
                nMaxIdx = nStartIdx - 1;
            }
        }
    }
}

/************************************************************************/
/*                        FindMinMaxIdxString()                         */
/************************************************************************/

static void FindMinMaxIdxString(const GDALMDArray *var, const char **ppszTmp,
                                const size_t nCount, const GUInt64 nStartIdx,
                                const std::string &osMin,
                                const std::string &osMax, const bool bSlice,
                                bool &bFoundMinIdx, GUInt64 &nMinIdx,
                                bool &bFoundMaxIdx, GUInt64 &nMaxIdx,
                                bool &bLastWasReversed, bool &bEmpty)
{
    bool bFoundNull = false;
    for (size_t i = 0; i < nCount; i++)
    {
        if (ppszTmp[i] == nullptr)
        {
            bFoundNull = true;
            break;
        }
    }
    if (bFoundNull)
    {
        CPLError(CE_Failure, CPLE_AppDefined,
                 "Variable %s contains null strings", var->GetName().c_str());
        bEmpty = true;
        return;
    }
    if (nCount >= 2)
    {
        bool bReversed = false;
        if (std::string(ppszTmp[0]) > std::string(ppszTmp[nCount - 1]))
        {
            bReversed = true;
            std::reverse(ppszTmp, ppszTmp + nCount);
        }
        if (nStartIdx > 0 && bLastWasReversed != bReversed)
        {
            CPLError(CE_Failure, CPLE_AppDefined,
                     "Variable %s is non monotonic", var->GetName().c_str());
            bEmpty = true;
            return;
        }
        bLastWasReversed = bReversed;

        if (!bFoundMinIdx)
        {
            if (bReversed && nStartIdx == 0 &&
                osMin > std::string(ppszTmp[nCount - 1]))
            {
                bEmpty = true;
                return;
            }
            else if (!bReversed && osMin < std::string(ppszTmp[0]))
            {
                if (bSlice)
                {
                    bEmpty = true;
                    return;
                }
                bFoundMinIdx = true;
                nMinIdx = nStartIdx;
            }
            else if (osMin >= std::string(ppszTmp[0]) &&
                     osMin <= std::string(ppszTmp[nCount - 1]))
            {
                for (size_t i = 0; i < nCount; i++)
                {
                    if (osMin <= std::string(ppszTmp[i]))
                    {
                        bFoundMinIdx = true;
                        nMinIdx = nStartIdx + (bReversed ? nCount - 1 - i : i);
                        break;
                    }
                }
                CPLAssert(bFoundMinIdx);
            }
        }
        if (!bFoundMaxIdx)
        {
            if (bReversed && nStartIdx == 0 &&
                osMax > std::string(ppszTmp[nCount - 1]))
            {
                if (bSlice)
                {
                    bEmpty = true;
                    return;
                }
                bFoundMaxIdx = true;
                nMaxIdx = 0;
            }
            else if (!bReversed && osMax < std::string(ppszTmp[0]))
            {
                if (nStartIdx == 0)
                {
                    bEmpty = true;
                    return;
                }
                bFoundMaxIdx = true;
                nMaxIdx = nStartIdx - 1;
            }
            else if (osMax == std::string(ppszTmp[0]))
            {
                bFoundMaxIdx = true;
                nMaxIdx = nStartIdx + (bReversed ? nCount - 1 : 0);
            }
            else if (osMax > std::string(ppszTmp[0]) &&
                     osMax <= std::string(ppszTmp[nCount - 1]))
            {
                for (size_t i = 1; i < nCount; i++)
                {
                    if (osMax <= std::string(ppszTmp[i]))
                    {
                        bFoundMaxIdx = true;
                        if (osMax == std::string(ppszTmp[i]))
                            nMaxIdx =
                                nStartIdx + (bReversed ? nCount - 1 - i : i);
                        else
                            nMaxIdx =
                                nStartIdx +
                                (bReversed ? nCount - 1 - (i - 1) : i - 1);
                        break;
                    }
                }
                CPLAssert(bFoundMaxIdx);
            }
        }
    }
    else
    {
        if (!bFoundMinIdx)
        {
            if (osMin <= std::string(ppszTmp[0]))
            {
                bFoundMinIdx = true;
                nMinIdx = nStartIdx;
            }
            else if (bLastWasReversed && nStartIdx > 0)
            {
                bFoundMinIdx = true;
                nMinIdx = nStartIdx - 1;
            }
        }
        if (!bFoundMaxIdx)
        {
            if (osMax >= std::string(ppszTmp[0]))
            {
                bFoundMaxIdx = true;
                nMaxIdx = nStartIdx;
            }
            else if (!bLastWasReversed && nStartIdx > 0)
            {
                bFoundMaxIdx = true;
                nMaxIdx = nStartIdx - 1;
            }
        }
    }
}

/************************************************************************/
/*                             GetDimensionDesc()                       */
/************************************************************************/

struct DimensionDesc
{
    GUInt64 nStartIdx = 0;
    GUInt64 nStep = 1;
    GUInt64 nSize = 0;
    GUInt64 nOriSize = 0;
    bool bSlice = false;
};

struct DimensionRemapper
{
    std::map<std::string, DimensionDesc> oMap{};
};

static const DimensionDesc *
GetDimensionDesc(DimensionRemapper &oDimRemapper,
                 const GDALMultiDimTranslateOptions *psOptions,
                 const std::shared_ptr<GDALDimension> &poDim)
{
    std::string osKey(poDim->GetFullName());
    osKey +=
        CPLSPrintf("_" CPL_FRMT_GUIB, static_cast<GUIntBig>(poDim->GetSize()));
    auto oIter = oDimRemapper.oMap.find(osKey);
    if (oIter != oDimRemapper.oMap.end() &&
        oIter->second.nOriSize == poDim->GetSize())
    {
        return &(oIter->second);
    }
    DimensionDesc desc;
    desc.nSize = poDim->GetSize();
    desc.nOriSize = desc.nSize;

    CPLString osRadix(poDim->GetName());
    osRadix += '(';
    for (const auto &subset : psOptions->aosSubset)
    {
        if (STARTS_WITH(subset.c_str(), osRadix.c_str()))
        {
            auto var = poDim->GetIndexingVariable();
            if (!var || var->GetDimensionCount() != 1 ||
                var->GetDimensions()[0]->GetSize() != poDim->GetSize())
            {
                CPLError(CE_Failure, CPLE_AppDefined,
                         "Dimension %s has a subset specification, but lacks "
                         "a single dimension indexing variable",
                         poDim->GetName().c_str());
                return nullptr;
            }
            if (subset.back() != ')')
            {
                CPLError(CE_Failure, CPLE_AppDefined,
                         "Missing ')' in subset specification.");
                return nullptr;
            }
            CPLStringList aosTokens(CSLTokenizeString2(
                subset
                    .substr(osRadix.size(), subset.size() - 1 - osRadix.size())
                    .c_str(),
                ",", CSLT_HONOURSTRINGS));
            if (aosTokens.size() == 1)
            {
                desc.bSlice = true;
            }
            if (aosTokens.size() != 1 && aosTokens.size() != 2)
            {
                CPLError(CE_Failure, CPLE_AppDefined,
                         "Invalid number of valus in subset specification.");
                return nullptr;
            }

            const bool bIsNumeric =
                var->GetDataType().GetClass() == GEDTC_NUMERIC;
            const GDALExtendedDataType dt(
                bIsNumeric ? GDALExtendedDataType::Create(GDT_Float64)
                           : GDALExtendedDataType::CreateString());

            double dfMin = 0;
            double dfMax = 0;
            std::string osMin;
            std::string osMax;
            if (bIsNumeric)
            {
                if (CPLGetValueType(aosTokens[0]) == CPL_VALUE_STRING ||
                    (aosTokens.size() == 2 &&
                     CPLGetValueType(aosTokens[1]) == CPL_VALUE_STRING))
                {
                    CPLError(CE_Failure, CPLE_AppDefined,
                             "Non numeric bound in subset specification.");
                    return nullptr;
                }
                dfMin = CPLAtof(aosTokens[0]);
                dfMax = dfMin;
                if (aosTokens.size() == 2)
                    dfMax = CPLAtof(aosTokens[1]);
                if (dfMin > dfMax)
                    std::swap(dfMin, dfMax);
            }
            else
            {
                osMin = aosTokens[0];
                osMax = osMin;
                if (aosTokens.size() == 2)
                    osMax = aosTokens[1];
                if (osMin > osMax)
                    std::swap(osMin, osMax);
            }

            const size_t nDTSize(dt.GetSize());
            const size_t nMaxChunkSize = static_cast<size_t>(std::min(
                static_cast<GUInt64>(10 * 1000 * 1000), poDim->GetSize()));
            std::vector<GByte> abyTmp(nDTSize * nMaxChunkSize);
            double *pdfTmp = reinterpret_cast<double *>(&abyTmp[0]);
            const char **ppszTmp = reinterpret_cast<const char **>(&abyTmp[0]);
            GUInt64 nStartIdx = 0;
            const double EPS = std::max(std::max(1e-10, fabs(dfMin) / 1e10),
                                        fabs(dfMax) / 1e10);
            bool bFoundMinIdx = false;
            bool bFoundMaxIdx = false;
            GUInt64 nMinIdx = 0;
            GUInt64 nMaxIdx = 0;
            bool bLastWasReversed = false;
            bool bEmpty = false;
            while (true)
            {
                const size_t nCount = static_cast<size_t>(
                    std::min(static_cast<GUInt64>(nMaxChunkSize),
                             poDim->GetSize() - nStartIdx));
                if (nCount == 0)
                    break;
                const GUInt64 anStartId[] = {nStartIdx};
                const size_t anCount[] = {nCount};
                if (!var->Read(anStartId, anCount, nullptr, nullptr, dt,
                               &abyTmp[0], nullptr, 0))
                {
                    return nullptr;
                }
                if (bIsNumeric)
                {
                    FindMinMaxIdxNumeric(
                        var.get(), pdfTmp, nCount, nStartIdx, dfMin, dfMax,
                        desc.bSlice, bFoundMinIdx, nMinIdx, bFoundMaxIdx,
                        nMaxIdx, bLastWasReversed, bEmpty, EPS);
                }
                else
                {
                    FindMinMaxIdxString(var.get(), ppszTmp, nCount, nStartIdx,
                                        osMin, osMax, desc.bSlice, bFoundMinIdx,
                                        nMinIdx, bFoundMaxIdx, nMaxIdx,
                                        bLastWasReversed, bEmpty);
                }
                if (dt.NeedsFreeDynamicMemory())
                {
                    for (size_t i = 0; i < nCount; i++)
                    {
                        dt.FreeDynamicMemory(&abyTmp[i * nDTSize]);
                    }
                }
                if (bEmpty || (bFoundMinIdx && bFoundMaxIdx) ||
                    nCount < nMaxChunkSize)
                {
                    break;
                }
                nStartIdx += nMaxChunkSize;
            }

            // cppcheck-suppress knownConditionTrueFalse
            if (!bLastWasReversed)
            {
                if (!bFoundMinIdx)
                    bEmpty = true;
                else if (!bFoundMaxIdx)
                    nMaxIdx = poDim->GetSize() - 1;
                else
                    bEmpty = nMaxIdx < nMinIdx;
            }
            else
            {
                if (!bFoundMaxIdx)
                    bEmpty = true;
                else if (!bFoundMinIdx)
                    nMinIdx = poDim->GetSize() - 1;
                else
                    bEmpty = nMinIdx < nMaxIdx;
            }
            if (bEmpty)
            {
                CPLError(CE_Failure, CPLE_AppDefined,
                         "Subset specification results in an empty set");
                return nullptr;
            }

            // cppcheck-suppress knownConditionTrueFalse
            if (!bLastWasReversed)
            {
                CPLAssert(nMaxIdx >= nMinIdx);
                desc.nStartIdx = nMinIdx;
                desc.nSize = nMaxIdx - nMinIdx + 1;
            }
            else
            {
                CPLAssert(nMaxIdx <= nMinIdx);
                desc.nStartIdx = nMaxIdx;
                desc.nSize = nMinIdx - nMaxIdx + 1;
            }

            break;
        }
    }

    for (const auto &scaleFactor : psOptions->aosScaleFactor)
    {
        if (STARTS_WITH(scaleFactor.c_str(), osRadix.c_str()))
        {
            if (scaleFactor.back() != ')')
            {
                CPLError(CE_Failure, CPLE_AppDefined,
                         "Missing ')' in scalefactor specification.");
                return nullptr;
            }
            std::string osScaleFactor(scaleFactor.substr(
                osRadix.size(), scaleFactor.size() - 1 - osRadix.size()));
            int nScaleFactor = atoi(osScaleFactor.c_str());
            if (CPLGetValueType(osScaleFactor.c_str()) != CPL_VALUE_INTEGER ||
                nScaleFactor <= 0)
            {
                CPLError(CE_Failure, CPLE_NotSupported,
                         "Only positive integer scale factor is supported");
                return nullptr;
            }
            desc.nSize /= nScaleFactor;
            if (desc.nSize == 0)
                desc.nSize = 1;
            desc.nStep *= nScaleFactor;
            break;
        }
    }

    oDimRemapper.oMap[osKey] = desc;
    return &oDimRemapper.oMap[osKey];
}

/************************************************************************/
/*                           ParseArraySpec()                           */
/************************************************************************/

// foo
// name=foo,transpose=[1,0],view=[0],dstname=bar,ot=Float32
static bool ParseArraySpec(const std::string &arraySpec, std::string &srcName,
                           std::string &dstName, int &band,
                           std::vector<int> &anTransposedAxis,
                           std::string &viewExpr,
                           GDALExtendedDataType &outputType, bool &bResampled)
{
    if (!STARTS_WITH(arraySpec.c_str(), "name=") &&
        !STARTS_WITH(arraySpec.c_str(), "band="))
    {
        srcName = arraySpec;
        dstName = arraySpec;
        auto pos = dstName.rfind('/');
        if (pos != std::string::npos)
            dstName = dstName.substr(pos + 1);
        return true;
    }

    std::vector<std::string> tokens;
    std::string curToken;
    bool bInArray = false;
    for (size_t i = 0; i < arraySpec.size(); ++i)
    {
        if (!bInArray && arraySpec[i] == ',')
        {
            tokens.emplace_back(std::move(curToken));
            curToken = std::string();
        }
        else
        {
            if (arraySpec[i] == '[')
            {
                bInArray = true;
            }
            else if (arraySpec[i] == ']')
            {
                bInArray = false;
            }
            curToken += arraySpec[i];
        }
    }
    if (!curToken.empty())
    {
        tokens.emplace_back(std::move(curToken));
    }
    for (const auto &token : tokens)
    {
        if (STARTS_WITH(token.c_str(), "name="))
        {
            srcName = token.substr(strlen("name="));
            if (dstName.empty())
                dstName = srcName;
        }
        else if (STARTS_WITH(token.c_str(), "band="))
        {
            band = atoi(token.substr(strlen("band=")).c_str());
            if (dstName.empty())
                dstName = CPLSPrintf("Band%d", band);
        }
        else if (STARTS_WITH(token.c_str(), "dstname="))
        {
            dstName = token.substr(strlen("dstname="));
        }
        else if (STARTS_WITH(token.c_str(), "transpose="))
        {
            auto transposeExpr = token.substr(strlen("transpose="));
            if (transposeExpr.size() < 3 || transposeExpr[0] != '[' ||
                transposeExpr.back() != ']')
            {
                CPLError(CE_Failure, CPLE_AppDefined,
                         "Invalid value for transpose");
                return false;
            }
            transposeExpr = transposeExpr.substr(1, transposeExpr.size() - 2);
            CPLStringList aosAxis(
                CSLTokenizeString2(transposeExpr.c_str(), ",", 0));
            for (int i = 0; i < aosAxis.size(); ++i)
            {
                anTransposedAxis.push_back(atoi(aosAxis[i]));
            }
        }
        else if (STARTS_WITH(token.c_str(), "view="))
        {
            viewExpr = token.substr(strlen("view="));
        }
        else if (STARTS_WITH(token.c_str(), "ot="))
        {
            auto outputTypeStr = token.substr(strlen("ot="));
            if (outputTypeStr == "String")
                outputType = GDALExtendedDataType::CreateString();
            else
            {
                auto eDT = GDALGetDataTypeByName(outputTypeStr.c_str());
                if (eDT == GDT_Unknown)
                    return false;
                outputType = GDALExtendedDataType::Create(eDT);
            }
        }
        else if (STARTS_WITH(token.c_str(), "resample="))
        {
            bResampled = CPLTestBool(token.c_str() + strlen("resample="));
        }
        else
        {
            CPLError(CE_Failure, CPLE_AppDefined,
                     "Unexpected array specification part: %s", token.c_str());
            return false;
        }
    }
    return true;
}

/************************************************************************/
/*                           TranslateArray()                           */
/************************************************************************/

static bool TranslateArray(
    DimensionRemapper &oDimRemapper,
    const std::shared_ptr<GDALMDArray> &poSrcArrayIn,
    const std::string &arraySpec,
    const std::shared_ptr<GDALGroup> &poSrcRootGroup,
    const std::shared_ptr<GDALGroup> &poSrcGroup,
    const std::shared_ptr<GDALGroup> &poDstRootGroup,
    std::shared_ptr<GDALGroup> &poDstGroup, GDALDataset *poSrcDS,
    std::map<std::string, std::shared_ptr<GDALDimension>> &mapSrcToDstDims,
    std::map<std::string, std::shared_ptr<GDALDimension>> &mapDstDimFullNames,
    const GDALMultiDimTranslateOptions *psOptions)
{
    std::string srcArrayName;
    std::string dstArrayName;
    int band = -1;
    std::vector<int> anTransposedAxis;
    std::string viewExpr;
    bool bResampled = false;
    GDALExtendedDataType outputType(GDALExtendedDataType::Create(GDT_Unknown));
    if (!ParseArraySpec(arraySpec, srcArrayName, dstArrayName, band,
                        anTransposedAxis, viewExpr, outputType, bResampled))
    {
        return false;
    }

    std::shared_ptr<GDALMDArray> srcArray;
    bool bSrcArrayAccessibleThroughSrcGroup = true;
    if (poSrcRootGroup && poSrcGroup)
    {
        if (!srcArrayName.empty() && srcArrayName[0] == '/')
            srcArray = poSrcRootGroup->OpenMDArrayFromFullname(srcArrayName);
        else
            srcArray = poSrcGroup->OpenMDArray(srcArrayName);
        if (!srcArray)
        {
            if (poSrcArrayIn && poSrcArrayIn->GetFullName() == arraySpec)
            {
                bSrcArrayAccessibleThroughSrcGroup = false;
                srcArray = poSrcArrayIn;
            }
            else
            {
                CPLError(CE_Failure, CPLE_AppDefined, "Cannot find array %s",
                         srcArrayName.c_str());
                return false;
            }
        }
    }
    else
    {
        auto poBand = poSrcDS->GetRasterBand(band);
        if (!poBand)
            return false;
        srcArray = poBand->AsMDArray();
    }

    auto tmpArray = srcArray;

    if (bResampled)
    {
        auto newTmpArray =
            tmpArray->GetResampled(std::vector<std::shared_ptr<GDALDimension>>(
                                       tmpArray->GetDimensionCount()),
                                   GRIORA_NearestNeighbour, nullptr, nullptr);
        if (!newTmpArray)
            return false;
        tmpArray = std::move(newTmpArray);
    }

    if (!anTransposedAxis.empty())
    {
        auto newTmpArray = tmpArray->Transpose(anTransposedAxis);
        if (!newTmpArray)
            return false;
        tmpArray = std::move(newTmpArray);
    }
    const auto &srcArrayDims(tmpArray->GetDimensions());
    std::map<std::shared_ptr<GDALDimension>, std::shared_ptr<GDALDimension>>
        oMapSubsetDimToSrcDim;

    std::vector<GDALMDArray::ViewSpec> viewSpecs;
    if (!viewExpr.empty())
    {
        if (!psOptions->aosSubset.empty() || !psOptions->aosScaleFactor.empty())
        {
            CPLError(CE_Failure, CPLE_NotSupported,
                     "View specification not supported when used together "
                     "with subset and/or scalefactor options");
            return false;
        }
        auto newTmpArray = tmpArray->GetView(viewExpr, true, viewSpecs);
        if (!newTmpArray)
            return false;
        tmpArray = std::move(newTmpArray);
    }
    else if (!psOptions->aosSubset.empty() ||
             !psOptions->aosScaleFactor.empty())
    {
        bool bHasModifiedDim = false;
        viewExpr = '[';
        for (size_t i = 0; i < srcArrayDims.size(); ++i)
        {
            const auto &srcDim(srcArrayDims[i]);
            const auto poDimDesc =
                GetDimensionDesc(oDimRemapper, psOptions, srcDim);
            if (poDimDesc == nullptr)
                return false;
            if (i > 0)
                viewExpr += ',';
            if (!poDimDesc->bSlice && poDimDesc->nStartIdx == 0 &&
                poDimDesc->nStep == 1 && poDimDesc->nSize == srcDim->GetSize())
            {
                viewExpr += ":";
            }
            else
            {
                bHasModifiedDim = true;
                viewExpr += CPLSPrintf(
                    CPL_FRMT_GUIB, static_cast<GUInt64>(poDimDesc->nStartIdx));
                if (!poDimDesc->bSlice)
                {
                    viewExpr += ':';
                    viewExpr +=
                        CPLSPrintf(CPL_FRMT_GUIB,
                                   static_cast<GUInt64>(poDimDesc->nStartIdx +
                                                        poDimDesc->nSize *
                                                            poDimDesc->nStep));
                    viewExpr += ':';
                    viewExpr += CPLSPrintf(
                        CPL_FRMT_GUIB, static_cast<GUInt64>(poDimDesc->nStep));
                }
            }
        }
        viewExpr += ']';
        if (bHasModifiedDim)
        {
            auto tmpArrayNew = tmpArray->GetView(viewExpr, false, viewSpecs);
            if (!tmpArrayNew)
                return false;
            tmpArray = tmpArrayNew;
            size_t j = 0;
            const auto &tmpArrayDims(tmpArray->GetDimensions());
            for (size_t i = 0; i < srcArrayDims.size(); ++i)
            {
                const auto &srcDim(srcArrayDims[i]);
                const auto poDimDesc =
                    GetDimensionDesc(oDimRemapper, psOptions, srcDim);
                if (poDimDesc == nullptr)
                    return false;
                if (poDimDesc->bSlice)
                    continue;
                CPLAssert(j < tmpArrayDims.size());
                oMapSubsetDimToSrcDim[tmpArrayDims[j]] = srcDim;
                j++;
            }
        }
        else
        {
            viewExpr.clear();
        }
    }

    int idxSliceSpec = -1;
    for (size_t i = 0; i < viewSpecs.size(); ++i)
    {
        if (viewSpecs[i].m_osFieldName.empty())
        {
            if (idxSliceSpec >= 0)
            {
                idxSliceSpec = -1;
                break;
            }
            else
            {
                idxSliceSpec = static_cast<int>(i);
            }
        }
    }

    // Map source dimensions to target dimensions
    std::vector<std::shared_ptr<GDALDimension>> dstArrayDims;
    const auto &tmpArrayDims(tmpArray->GetDimensions());
    for (size_t i = 0; i < tmpArrayDims.size(); ++i)
    {
        const auto &srcDim(tmpArrayDims[i]);
        std::string srcDimFullName(srcDim->GetFullName());

        std::shared_ptr<GDALDimension> dstDim;
        {
            CPLErrorHandlerPusher oHandlerPusher(CPLQuietErrorHandler);
            CPLErrorStateBackuper oErrorStateBackuper;
            if (!srcDimFullName.empty() && srcDimFullName[0] == '/')
            {
                dstDim =
                    poDstRootGroup->OpenDimensionFromFullname(srcDimFullName);
            }
        }
        if (dstDim)
        {
            dstArrayDims.emplace_back(dstDim);
            continue;
        }

        auto oIter = mapSrcToDstDims.find(srcDimFullName);
        if (oIter != mapSrcToDstDims.end())
        {
            dstArrayDims.emplace_back(oIter->second);
            continue;
        }
        auto oIterRealSrcDim = oMapSubsetDimToSrcDim.find(srcDim);
        if (oIterRealSrcDim != oMapSubsetDimToSrcDim.end())
        {
            srcDimFullName = oIterRealSrcDim->second->GetFullName();
            oIter = mapSrcToDstDims.find(srcDimFullName);
            if (oIter != mapSrcToDstDims.end())
            {
                dstArrayDims.emplace_back(oIter->second);
                continue;
            }
        }

        const auto nDimSize = srcDim->GetSize();
        std::string newDimNameFullName(srcDimFullName);
        std::string newDimName(srcDim->GetName());
        int nIncr = 2;
        std::string osDstGroupFullName(poDstGroup->GetFullName());
        if (osDstGroupFullName == "/")
            osDstGroupFullName.clear();
        auto oIter2 = mapDstDimFullNames.find(osDstGroupFullName + '/' +
                                              srcDim->GetName());
        while (oIter2 != mapDstDimFullNames.end() &&
               oIter2->second->GetSize() != nDimSize)
        {
            newDimName = srcDim->GetName() + CPLSPrintf("_%d", nIncr);
            newDimNameFullName = osDstGroupFullName + '/' + srcDim->GetName() +
                                 CPLSPrintf("_%d", nIncr);
            nIncr++;
            oIter2 = mapDstDimFullNames.find(newDimNameFullName);
        }
        if (oIter2 != mapDstDimFullNames.end() &&
            oIter2->second->GetSize() == nDimSize)
        {
            dstArrayDims.emplace_back(oIter2->second);
            continue;
        }

        dstDim = poDstGroup->CreateDimension(newDimName, srcDim->GetType(),
                                             srcDim->GetDirection(), nDimSize);
        if (!dstDim)
            return false;
        if (!srcDimFullName.empty() && srcDimFullName[0] == '/')
        {
            mapSrcToDstDims[srcDimFullName] = dstDim;
        }
        mapDstDimFullNames[dstDim->GetFullName()] = dstDim;
        dstArrayDims.emplace_back(dstDim);

        std::shared_ptr<GDALMDArray> srcIndexVar;
        GDALMDArray::Range range;
        range.m_nStartIdx = 0;
        range.m_nIncr = 1;
        std::string indexingVarSpec;
        if (idxSliceSpec >= 0)
        {
            const auto &viewSpec(viewSpecs[idxSliceSpec]);
            auto iParentDim = viewSpec.m_mapDimIdxToParentDimIdx[i];
            if (iParentDim != static_cast<size_t>(-1) &&
                (srcIndexVar =
                     srcArrayDims[iParentDim]->GetIndexingVariable()) !=
                    nullptr &&
                srcIndexVar->GetDimensionCount() == 1 &&
                srcIndexVar->GetFullName() != srcArray->GetFullName())
            {
                CPLAssert(iParentDim < viewSpec.m_parentRanges.size());
                range = viewSpec.m_parentRanges[iParentDim];
                indexingVarSpec = "name=" + srcIndexVar->GetFullName();
                indexingVarSpec += ",dstname=" + newDimName;
                if (psOptions->aosSubset.empty() &&
                    psOptions->aosScaleFactor.empty())
                {
                    if (range.m_nStartIdx != 0 || range.m_nIncr != 1 ||
                        srcArrayDims[iParentDim]->GetSize() !=
                            srcDim->GetSize())
                    {
                        indexingVarSpec += ",view=[";
                        if (range.m_nIncr > 0 ||
                            range.m_nStartIdx != srcDim->GetSize() - 1)
                        {
                            indexingVarSpec +=
                                CPLSPrintf(CPL_FRMT_GUIB, range.m_nStartIdx);
                        }
                        indexingVarSpec += ':';
                        if (range.m_nIncr > 0)
                        {
                            const auto nEndIdx =
                                range.m_nStartIdx +
                                range.m_nIncr * srcDim->GetSize();
                            indexingVarSpec +=
                                CPLSPrintf(CPL_FRMT_GUIB, nEndIdx);
                        }
                        else if (range.m_nStartIdx >
                                 -range.m_nIncr * srcDim->GetSize())
                        {
                            const auto nEndIdx =
                                range.m_nStartIdx +
                                range.m_nIncr * srcDim->GetSize();
                            indexingVarSpec +=
                                CPLSPrintf(CPL_FRMT_GUIB, nEndIdx - 1);
                        }
                        indexingVarSpec += ':';
                        indexingVarSpec +=
                            CPLSPrintf(CPL_FRMT_GIB, range.m_nIncr);
                        indexingVarSpec += ']';
                    }
                }
            }
        }
        else
        {
            srcIndexVar = srcDim->GetIndexingVariable();
            if (srcIndexVar)
            {
                indexingVarSpec = srcIndexVar->GetFullName();
            }
        }
        if (srcIndexVar && !indexingVarSpec.empty() &&
            srcIndexVar->GetFullName() != srcArray->GetFullName())
        {
            if (poSrcRootGroup)
            {
                if (!TranslateArray(oDimRemapper, srcIndexVar, indexingVarSpec,
                                    poSrcRootGroup, poSrcGroup, poDstRootGroup,
                                    poDstGroup, poSrcDS, mapSrcToDstDims,
                                    mapDstDimFullNames, psOptions))
                {
                    return false;
                }
            }
            else
            {
                double adfGT[6];
                if (poSrcDS->GetGeoTransform(adfGT) == CE_None &&
                    adfGT[2] == 0.0 && adfGT[4] == 0.0)
                {
                    auto var = std::dynamic_pointer_cast<VRTMDArray>(
                        poDstGroup->CreateMDArray(
                            newDimName, {dstDim},
                            GDALExtendedDataType::Create(GDT_Float64)));
                    if (var)
                    {
                        const double dfStart =
                            srcIndexVar->GetName() == "X"
                                ? adfGT[0] +
                                      (range.m_nStartIdx + 0.5) * adfGT[1]
                                : adfGT[3] +
                                      (range.m_nStartIdx + 0.5) * adfGT[5];
                        const double dfIncr =
                            (srcIndexVar->GetName() == "X" ? adfGT[1]
                                                           : adfGT[5]) *
                            range.m_nIncr;
                        std::unique_ptr<VRTMDArraySourceRegularlySpaced>
                            poSource(new VRTMDArraySourceRegularlySpaced(
                                dfStart, dfIncr));
                        var->AddSource(std::move(poSource));
                    }
                }
            }

            CPLErrorHandlerPusher oHandlerPusher(CPLQuietErrorHandler);
            CPLErrorStateBackuper oErrorStateBackuper;
            auto poDstIndexingVar(poDstGroup->OpenMDArray(newDimName));
            if (poDstIndexingVar)
                dstDim->SetIndexingVariable(poDstIndexingVar);
        }
    }
    if (outputType.GetClass() == GEDTC_NUMERIC &&
        outputType.GetNumericDataType() == GDT_Unknown)
    {
        outputType = GDALExtendedDataType(tmpArray->GetDataType());
    }
    auto dstArray =
        poDstGroup->CreateMDArray(dstArrayName, dstArrayDims, outputType);
    auto dstArrayVRT = std::dynamic_pointer_cast<VRTMDArray>(dstArray);
    if (!dstArrayVRT)
        return false;

    GUInt64 nCurCost = 0;
    dstArray->CopyFromAllExceptValues(srcArray.get(), false, nCurCost, 0,
                                      nullptr, nullptr);
    if (bResampled)
        dstArray->SetSpatialRef(tmpArray->GetSpatialRef().get());

    if (idxSliceSpec >= 0)
    {
        std::set<size_t> oSetParentDimIdxNotInArray;
        for (size_t i = 0; i < srcArrayDims.size(); ++i)
        {
            oSetParentDimIdxNotInArray.insert(i);
        }
        const auto &viewSpec(viewSpecs[idxSliceSpec]);
        for (size_t i = 0; i < tmpArrayDims.size(); ++i)
        {
            auto iParentDim = viewSpec.m_mapDimIdxToParentDimIdx[i];
            if (iParentDim != static_cast<size_t>(-1))
            {
                oSetParentDimIdxNotInArray.erase(iParentDim);
            }
        }
        for (const auto parentDimIdx : oSetParentDimIdxNotInArray)
        {
            const auto &srcDim(srcArrayDims[parentDimIdx]);
            const auto nStartIdx =
                viewSpec.m_parentRanges[parentDimIdx].m_nStartIdx;
            if (nStartIdx < static_cast<GUInt64>(INT_MAX))
            {
                auto dstAttr = dstArray->CreateAttribute(
                    "DIM_" + srcDim->GetName() + "_INDEX", {},
                    GDALExtendedDataType::Create(GDT_Int32));
                dstAttr->Write(static_cast<int>(nStartIdx));
            }
            else
            {
                auto dstAttr = dstArray->CreateAttribute(
                    "DIM_" + srcDim->GetName() + "_INDEX", {},
                    GDALExtendedDataType::CreateString());
                dstAttr->Write(CPLSPrintf(CPL_FRMT_GUIB,
                                          static_cast<GUIntBig>(nStartIdx)));
            }

            auto srcIndexVar(srcDim->GetIndexingVariable());
            if (srcIndexVar && srcIndexVar->GetDimensionCount() == 1)
            {
                const auto &dt(srcIndexVar->GetDataType());
                std::vector<GByte> abyTmp(dt.GetSize());
                const size_t nCount = 1;
                if (srcIndexVar->Read(&nStartIdx, &nCount, nullptr, nullptr, dt,
                                      &abyTmp[0], nullptr, 0))
                {
                    {
                        auto dstAttr = dstArray->CreateAttribute(
                            "DIM_" + srcDim->GetName() + "_VALUE", {}, dt);
                        dstAttr->Write(abyTmp.data(), abyTmp.size());
                        dt.FreeDynamicMemory(&abyTmp[0]);
                    }

                    const auto &unit(srcIndexVar->GetUnit());
                    if (!unit.empty())
                    {
                        auto dstAttr = dstArray->CreateAttribute(
                            "DIM_" + srcDim->GetName() + "_UNIT", {},
                            GDALExtendedDataType::CreateString());
                        dstAttr->Write(unit.c_str());
                    }
                }
            }
        }
    }

    double dfStart = 0.0;
    double dfIncrement = 0.0;
    if (!bSrcArrayAccessibleThroughSrcGroup &&
        tmpArray->IsRegularlySpaced(dfStart, dfIncrement))
    {
        auto poSource = std::make_unique<VRTMDArraySourceRegularlySpaced>(
            dfStart, dfIncrement);
        dstArrayVRT->AddSource(std::move(poSource));
    }
    else
    {
        const auto dimCount(tmpArray->GetDimensionCount());
        std::vector<GUInt64> anSrcOffset(dimCount);
        std::vector<GUInt64> anCount(dimCount);
        for (size_t i = 0; i < dimCount; ++i)
        {
            anCount[i] = tmpArrayDims[i]->GetSize();
        }
        std::vector<GUInt64> anStep(dimCount, 1);
        std::vector<GUInt64> anDstOffset(dimCount);
        std::unique_ptr<VRTMDArraySourceFromArray> poSource(
            new VRTMDArraySourceFromArray(
                dstArrayVRT.get(), false, false, poSrcDS->GetDescription(),
                band < 0 ? srcArray->GetFullName() : std::string(),
                band >= 1 ? CPLSPrintf("%d", band) : std::string(),
                std::move(anTransposedAxis),
                bResampled
                    ? (viewExpr.empty()
                           ? std::string("resample=true")
                           : std::string("resample=true,").append(viewExpr))
                    : std::move(viewExpr),
                std::move(anSrcOffset), std::move(anCount), std::move(anStep),
                std::move(anDstOffset)));
        dstArrayVRT->AddSource(std::move(poSource));
    }

    return true;
}

/************************************************************************/
/*                               GetGroup()                             */
/************************************************************************/

static std::shared_ptr<GDALGroup>
GetGroup(const std::shared_ptr<GDALGroup> &poRootGroup,
         const std::string &fullName)
{
    auto poCurGroup = poRootGroup;
    CPLStringList aosTokens(CSLTokenizeString2(fullName.c_str(), "/", 0));
    for (int i = 0; i < aosTokens.size(); i++)
    {
        auto poCurGroupNew = poCurGroup->OpenGroup(aosTokens[i], nullptr);
        if (!poCurGroupNew)
        {
            CPLError(CE_Failure, CPLE_AppDefined, "Cannot find group %s",
                     aosTokens[i]);
            return nullptr;
        }
        poCurGroup = poCurGroupNew;
    }
    return poCurGroup;
}

/************************************************************************/
/*                                CopyGroup()                           */
/************************************************************************/

static bool CopyGroup(
    DimensionRemapper &oDimRemapper,
    const std::shared_ptr<GDALGroup> &poDstRootGroup,
    std::shared_ptr<GDALGroup> &poDstGroup,
    const std::shared_ptr<GDALGroup> &poSrcRootGroup,
    const std::shared_ptr<GDALGroup> &poSrcGroup, GDALDataset *poSrcDS,
    std::map<std::string, std::shared_ptr<GDALDimension>> &mapSrcToDstDims,
    std::map<std::string, std::shared_ptr<GDALDimension>> &mapDstDimFullNames,
    const GDALMultiDimTranslateOptions *psOptions, bool bRecursive)
{
    const auto srcDims = poSrcGroup->GetDimensions();
    std::map<std::string, std::string> mapSrcVariableNameToIndexedDimName;
    for (const auto &dim : srcDims)
    {
        const auto poDimDesc = GetDimensionDesc(oDimRemapper, psOptions, dim);
        if (poDimDesc == nullptr)
            return false;
        if (poDimDesc->bSlice)
            continue;
        auto dstDim =
            poDstGroup->CreateDimension(dim->GetName(), dim->GetType(),
                                        dim->GetDirection(), poDimDesc->nSize);
        if (!dstDim)
            return false;
        mapSrcToDstDims[dim->GetFullName()] = dstDim;
        mapDstDimFullNames[dstDim->GetFullName()] = dstDim;
        auto poIndexingVarSrc(dim->GetIndexingVariable());
        if (poIndexingVarSrc)
        {
            mapSrcVariableNameToIndexedDimName[poIndexingVarSrc->GetName()] =
                dim->GetFullName();
        }
    }

    if (!(poSrcGroup == poSrcRootGroup && psOptions->aosGroup.empty()))
    {
        auto attrs = poSrcGroup->GetAttributes();
        for (const auto &attr : attrs)
        {
            auto dstAttr = poDstGroup->CreateAttribute(
                attr->GetName(), attr->GetDimensionsSize(),
                attr->GetDataType());
            if (!dstAttr)
            {
                if (!psOptions->bStrict)
                    continue;
                return false;
            }
            auto raw(attr->ReadAsRaw());
            if (!dstAttr->Write(raw.data(), raw.size()) && !psOptions->bStrict)
                return false;
        }
    }

    auto arrayNames = poSrcGroup->GetMDArrayNames();
    for (const auto &name : arrayNames)
    {
        if (!TranslateArray(oDimRemapper, nullptr, name, poSrcRootGroup,
                            poSrcGroup, poDstRootGroup, poDstGroup, poSrcDS,
                            mapSrcToDstDims, mapDstDimFullNames, psOptions))
        {
            return false;
        }

        // If this array is the indexing variable of a dimension, link them
        // together.
        auto srcArray = poSrcGroup->OpenMDArray(name);
        CPLAssert(srcArray);
        auto dstArray = poDstGroup->OpenMDArray(name);
        CPLAssert(dstArray);
        auto oIterDimName =
            mapSrcVariableNameToIndexedDimName.find(srcArray->GetName());
        if (oIterDimName != mapSrcVariableNameToIndexedDimName.end())
        {
            auto oCorrespondingDimIter =
                mapSrcToDstDims.find(oIterDimName->second);
            if (oCorrespondingDimIter != mapSrcToDstDims.end())
            {
                CPLErrorHandlerPusher oHandlerPusher(CPLQuietErrorHandler);
                CPLErrorStateBackuper oErrorStateBackuper;
                oCorrespondingDimIter->second->SetIndexingVariable(
                    std::move(dstArray));
            }
        }
    }

    if (bRecursive)
    {
        auto groupNames = poSrcGroup->GetGroupNames();
        for (const auto &name : groupNames)
        {
            auto srcSubGroup = poSrcGroup->OpenGroup(name);
            if (!srcSubGroup)
            {
                return false;
            }
            auto dstSubGroup = poDstGroup->CreateGroup(name);
            if (!dstSubGroup)
            {
                return false;
            }
            if (!CopyGroup(oDimRemapper, poDstRootGroup, dstSubGroup,
                           poSrcRootGroup, srcSubGroup, poSrcDS,
                           mapSrcToDstDims, mapDstDimFullNames, psOptions,
                           true))
            {
                return false;
            }
        }
    }
    return true;
}

/************************************************************************/
/*                           ParseGroupSpec()                           */
/************************************************************************/

// foo
// name=foo,dstname=bar,recursive=no
static bool ParseGroupSpec(const std::string &groupSpec, std::string &srcName,
                           std::string &dstName, bool &bRecursive)
{
    bRecursive = true;
    if (!STARTS_WITH(groupSpec.c_str(), "name="))
    {
        srcName = groupSpec;
        return true;
    }

    CPLStringList aosTokens(CSLTokenizeString2(groupSpec.c_str(), ",", 0));
    for (int i = 0; i < aosTokens.size(); i++)
    {
        const std::string token(aosTokens[i]);
        if (STARTS_WITH(token.c_str(), "name="))
        {
            srcName = token.substr(strlen("name="));
        }
        else if (STARTS_WITH(token.c_str(), "dstname="))
        {
            dstName = token.substr(strlen("dstname="));
        }
        else if (token == "recursive=no")
        {
            bRecursive = false;
        }
        else
        {
            CPLError(CE_Failure, CPLE_AppDefined,
                     "Unexpected group specification part: %s", token.c_str());
            return false;
        }
    }
    return true;
}

/************************************************************************/
/*                           TranslateInternal()                        */
/************************************************************************/

static bool TranslateInternal(std::shared_ptr<GDALGroup> &poDstRootGroup,
                              GDALDataset *poSrcDS,
                              const GDALMultiDimTranslateOptions *psOptions)
{

    auto poSrcRootGroup = poSrcDS->GetRootGroup();
    if (poSrcRootGroup)
    {
        if (psOptions->aosGroup.empty())
        {
            auto attrs = poSrcRootGroup->GetAttributes();
            for (const auto &attr : attrs)
            {
                if (attr->GetName() == "Conventions")
                    continue;
                auto dstAttr = poDstRootGroup->CreateAttribute(
                    attr->GetName(), attr->GetDimensionsSize(),
                    attr->GetDataType());
                if (dstAttr)
                {
                    auto raw(attr->ReadAsRaw());
                    dstAttr->Write(raw.data(), raw.size());
                }
            }
        }
    }

    DimensionRemapper oDimRemapper;
    std::map<std::string, std::shared_ptr<GDALDimension>> mapSrcToDstDims;
    std::map<std::string, std::shared_ptr<GDALDimension>> mapDstDimFullNames;
    if (!psOptions->aosGroup.empty())
    {
        if (poSrcRootGroup == nullptr)
        {
            CPLError(
                CE_Failure, CPLE_AppDefined,
                "No multidimensional source dataset: -group cannot be used");
            return false;
        }
        if (psOptions->aosGroup.size() == 1)
        {
            std::string srcName;
            std::string dstName;
            bool bRecursive;
            if (!ParseGroupSpec(psOptions->aosGroup[0], srcName, dstName,
                                bRecursive))
                return false;
            auto poSrcGroup = GetGroup(poSrcRootGroup, srcName);
            if (!poSrcGroup)
                return false;
            return CopyGroup(oDimRemapper, poDstRootGroup, poDstRootGroup,
                             poSrcRootGroup, poSrcGroup, poSrcDS,
                             mapSrcToDstDims, mapDstDimFullNames, psOptions,
                             bRecursive);
        }
        else
        {
            for (const auto &osGroupSpec : psOptions->aosGroup)
            {
                std::string srcName;
                std::string dstName;
                bool bRecursive;
                if (!ParseGroupSpec(osGroupSpec, srcName, dstName, bRecursive))
                    return false;
                auto poSrcGroup = GetGroup(poSrcRootGroup, srcName);
                if (!poSrcGroup)
                    return false;
                if (dstName.empty())
                    dstName = poSrcGroup->GetName();
                auto dstSubGroup = poDstRootGroup->CreateGroup(dstName);
                if (!dstSubGroup ||
                    !CopyGroup(oDimRemapper, poDstRootGroup, dstSubGroup,
                               poSrcRootGroup, poSrcGroup, poSrcDS,
                               mapSrcToDstDims, mapDstDimFullNames, psOptions,
                               bRecursive))
                {
                    return false;
                }
            }
        }
    }
    else if (!psOptions->aosArraySpec.empty())
    {
        for (const auto &arraySpec : psOptions->aosArraySpec)
        {
            if (!TranslateArray(oDimRemapper, nullptr, arraySpec,
                                poSrcRootGroup, poSrcRootGroup, poDstRootGroup,
                                poDstRootGroup, poSrcDS, mapSrcToDstDims,
                                mapDstDimFullNames, psOptions))
            {
                return false;
            }
        }
    }
    else
    {
        if (poSrcRootGroup == nullptr)
        {
            CPLError(CE_Failure, CPLE_AppDefined,
                     "No multidimensional source dataset");
            return false;
        }
        return CopyGroup(oDimRemapper, poDstRootGroup, poDstRootGroup,
                         poSrcRootGroup, poSrcRootGroup, poSrcDS,
                         mapSrcToDstDims, mapDstDimFullNames, psOptions, true);
    }

    return true;
}

/************************************************************************/
/*                      CopyToNonMultiDimensionalDriver()               */
/************************************************************************/

static GDALDatasetH
CopyToNonMultiDimensionalDriver(GDALDriver *poDriver, const char *pszDest,
                                const std::shared_ptr<GDALGroup> &poRG,
                                const GDALMultiDimTranslateOptions *psOptions)
{
    std::shared_ptr<GDALMDArray> srcArray;
    if (psOptions && !psOptions->aosArraySpec.empty())
    {
        if (psOptions->aosArraySpec.size() != 1)
        {
            CPLError(CE_Failure, CPLE_NotSupported,
                     "For output to a non-multidimensional driver, only "
                     "one array should be specified");
            return nullptr;
        }
        std::string srcArrayName;
        std::string dstArrayName;
        int band = -1;
        std::vector<int> anTransposedAxis;
        std::string viewExpr;
        GDALExtendedDataType outputType(
            GDALExtendedDataType::Create(GDT_Unknown));
        bool bResampled = false;
        ParseArraySpec(psOptions->aosArraySpec[0], srcArrayName, dstArrayName,
                       band, anTransposedAxis, viewExpr, outputType,
                       bResampled);
        srcArray = poRG->OpenMDArray(dstArrayName);
    }
    else
    {
        auto srcArrayNames = poRG->GetMDArrayNames();
        for (const auto &srcArrayName : srcArrayNames)
        {
            auto tmpArray = poRG->OpenMDArray(srcArrayName);
            if (tmpArray)
            {
                const auto &dims(tmpArray->GetDimensions());
                if (!(dims.size() == 1 && dims[0]->GetIndexingVariable() &&
                      dims[0]->GetIndexingVariable()->GetName() ==
                          srcArrayName))
                {
                    if (srcArray)
                    {
                        CPLError(CE_Failure, CPLE_AppDefined,
                                 "Several arrays exist. Select one for "
                                 "output to non-multidimensional driver");
                        return nullptr;
                    }
                    srcArray = tmpArray;
                }
            }
        }
    }
    if (!srcArray)
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Cannot find source array");
        return nullptr;
    }
    size_t iXDim = static_cast<size_t>(-1);
    size_t iYDim = static_cast<size_t>(-1);
    const auto &dims(srcArray->GetDimensions());
    for (size_t i = 0; i < dims.size(); ++i)
    {
        if (dims[i]->GetType() == GDAL_DIM_TYPE_HORIZONTAL_X)
        {
            iXDim = i;
        }
        else if (dims[i]->GetType() == GDAL_DIM_TYPE_HORIZONTAL_Y)
        {
            iYDim = i;
        }
    }
    if (dims.size() == 1)
    {
        iXDim = 0;
    }
    else if (dims.size() >= 2 && (iXDim == static_cast<size_t>(-1) ||
                                  iYDim == static_cast<size_t>(-1)))
    {
        iXDim = dims.size() - 1;
        iYDim = dims.size() - 2;
    }
    std::unique_ptr<GDALDataset> poTmpSrcDS(
        srcArray->AsClassicDataset(iXDim, iYDim));
    if (!poTmpSrcDS)
        return nullptr;
    return GDALDataset::ToHandle(poDriver->CreateCopy(
        pszDest, poTmpSrcDS.get(), false,
        psOptions ? const_cast<char **>(psOptions->aosCreateOptions.List())
                  : nullptr,
        psOptions ? psOptions->pfnProgress : nullptr,
        psOptions ? psOptions->pProgressData : nullptr));
}

/************************************************************************/
/*                        GDALMultiDimTranslate()                       */
/************************************************************************/

/* clang-format off */
/**
 * Converts raster data between different formats.
 *
 * This is the equivalent of the
 * <a href="/programs/gdalmdimtranslate.html">gdalmdimtranslate</a> utility.
 *
 * GDALMultiDimTranslateOptions* must be allocated and freed with
 * GDALMultiDimTranslateOptionsNew() and GDALMultiDimTranslateOptionsFree()
 * respectively. pszDest and hDstDS cannot be used at the same time.
 *
 * @param pszDest the destination dataset path or NULL.
 * @param hDstDS the destination dataset or NULL.
 * @param nSrcCount the number of input datasets.
 * @param pahSrcDS the list of input datasets.
 * @param psOptions the options struct returned by
 * GDALMultiDimTranslateOptionsNew() or NULL.
 * @param pbUsageError pointer to a integer output variable to store if any
 * usage error has occurred or NULL.
 * @return the output dataset (new dataset that must be closed using
 * GDALClose(), or hDstDS is not NULL) or NULL in case of error.
 *
 * @since GDAL 3.1
 */
/* clang-format on */

GDALDatasetH
GDALMultiDimTranslate(const char *pszDest, GDALDatasetH hDstDS, int nSrcCount,
                      GDALDatasetH *pahSrcDS,
                      const GDALMultiDimTranslateOptions *psOptions,
                      int *pbUsageError)
{
    if (pbUsageError)
        *pbUsageError = false;
    if (nSrcCount != 1 || pahSrcDS[0] == nullptr)
    {
        CPLError(CE_Failure, CPLE_NotSupported,
                 "Only one source dataset is supported");
        if (pbUsageError)
            *pbUsageError = true;
        return nullptr;
    }

    if (hDstDS)
    {
        CPLError(CE_Failure, CPLE_NotSupported,
                 "Update of existing file not supported yet");
        GDALClose(hDstDS);
        return nullptr;
    }

    CPLString osFormat(psOptions ? psOptions->osFormat : "");
    if (pszDest == nullptr /* && hDstDS == nullptr */)
    {
        CPLError(CE_Failure, CPLE_NotSupported,
                 "Both pszDest and hDstDS are NULL.");
        if (pbUsageError)
            *pbUsageError = true;
        return nullptr;
    }

    GDALDriver *poDriver = nullptr;

#ifdef this_is_dead_code_for_now
    const bool bCloseOutDSOnError = hDstDS == nullptr;
    if (pszDest == nullptr)
        pszDest = GDALGetDescription(hDstDS);
#endif

#ifdef this_is_dead_code_for_now
    if (hDstDS == nullptr)
#endif
    {
        if (osFormat.empty())
        {
            if (EQUAL(CPLGetExtension(pszDest), "nc"))
                osFormat = "netCDF";
            else
                osFormat = GetOutputDriverForRaster(pszDest);
            if (osFormat.empty())
            {
                return nullptr;
            }
        }
        poDriver = GDALDriver::FromHandle(GDALGetDriverByName(osFormat));
        char **papszDriverMD = poDriver ? poDriver->GetMetadata() : nullptr;
        if (poDriver == nullptr ||
            (!CPLTestBool(CSLFetchNameValueDef(papszDriverMD, GDAL_DCAP_RASTER,
                                               "FALSE")) &&
             !CPLTestBool(CSLFetchNameValueDef(
                 papszDriverMD, GDAL_DCAP_MULTIDIM_RASTER, "FALSE"))) ||
            (!CPLTestBool(CSLFetchNameValueDef(papszDriverMD, GDAL_DCAP_CREATE,
                                               "FALSE")) &&
             !CPLTestBool(CSLFetchNameValueDef(
                 papszDriverMD, GDAL_DCAP_CREATECOPY, "FALSE")) &&
             !CPLTestBool(CSLFetchNameValueDef(
                 papszDriverMD, GDAL_DCAP_CREATE_MULTIDIMENSIONAL, "FALSE")) &&
             !CPLTestBool(CSLFetchNameValueDef(
                 papszDriverMD, GDAL_DCAP_CREATECOPY_MULTIDIMENSIONAL,
                 "FALSE"))))
        {
            CPLError(CE_Failure, CPLE_NotSupported,
                     "Output driver `%s' not recognised or does not support "
                     "output file creation.",
                     osFormat.c_str());
            return nullptr;
        }
    }

    GDALDataset *poSrcDS = GDALDataset::FromHandle(pahSrcDS[0]);

    std::unique_ptr<GDALDataset> poTmpDS;
    GDALDataset *poTmpSrcDS = poSrcDS;
    if (psOptions &&
        (!psOptions->aosArraySpec.empty() || !psOptions->aosGroup.empty() ||
         !psOptions->aosSubset.empty() || !psOptions->aosScaleFactor.empty()))
    {
        poTmpDS.reset(VRTDataset::CreateMultiDimensional("", nullptr, nullptr));
        CPLAssert(poTmpDS);
        poTmpSrcDS = poTmpDS.get();

        auto poDstRootGroup = poTmpDS->GetRootGroup();
        CPLAssert(poDstRootGroup);

        if (!TranslateInternal(poDstRootGroup, poSrcDS, psOptions))
        {
#ifdef this_is_dead_code_for_now
            if (bCloseOutDSOnError)
#endif
            {
                GDALClose(hDstDS);
                hDstDS = nullptr;
            }
            return nullptr;
        }
    }

    auto poRG(poTmpSrcDS->GetRootGroup());
    if (poRG &&
        poDriver->GetMetadataItem(GDAL_DCAP_CREATE_MULTIDIMENSIONAL) ==
            nullptr &&
        poDriver->GetMetadataItem(GDAL_DCAP_CREATECOPY_MULTIDIMENSIONAL) ==
            nullptr)
    {
#ifdef this_is_dead_code_for_now
        if (hDstDS)
        {
            CPLError(CE_Failure, CPLE_NotSupported,
                     "Appending to non-multidimensional driver not supported.");
            GDALClose(hDstDS);
            hDstDS = nullptr;
            return nullptr;
        }
#endif
        hDstDS =
            CopyToNonMultiDimensionalDriver(poDriver, pszDest, poRG, psOptions);
    }
    else
    {
        hDstDS = GDALDataset::ToHandle(poDriver->CreateCopy(
            pszDest, poTmpSrcDS, false,
            psOptions ? const_cast<char **>(psOptions->aosCreateOptions.List())
                      : nullptr,
            psOptions ? psOptions->pfnProgress : nullptr,
            psOptions ? psOptions->pProgressData : nullptr));
    }

    return hDstDS;
}

/************************************************************************/
/*                     GDALMultiDimTranslateOptionsNew()                */
/************************************************************************/

/**
 * Allocates a GDALMultiDimTranslateOptions struct.
 *
 * @param papszArgv NULL terminated list of options (potentially including
 * filename and open options too), or NULL. The accepted options are the ones of
 * the <a href="/programs/gdalmdimtranslate.html">gdalmdimtranslate</a> utility.
 * @param psOptionsForBinary should be nullptr, unless called from
 * gdalmdimtranslate_bin.cpp
 * @return pointer to the allocated GDALMultiDimTranslateOptions struct. Must be
 * freed with GDALMultiDimTranslateOptionsFree().
 *
 * @since GDAL 3.1
 */

GDALMultiDimTranslateOptions *GDALMultiDimTranslateOptionsNew(
    char **papszArgv, GDALMultiDimTranslateOptionsForBinary *psOptionsForBinary)
{
    GDALMultiDimTranslateOptions *psOptions = new GDALMultiDimTranslateOptions;

    /* -------------------------------------------------------------------- */
    /*      Handle command line arguments.                                  */
    /* -------------------------------------------------------------------- */
    const int argc = CSLCount(papszArgv);
    for (int i = 0; papszArgv != nullptr && i < argc; i++)
    {
        if (i < argc - 1 &&
            (EQUAL(papszArgv[i], "-of") || EQUAL(papszArgv[i], "-f")))
        {
            ++i;
            psOptions->osFormat = papszArgv[i];
        }

        else if (EQUAL(papszArgv[i], "-q") || EQUAL(papszArgv[i], "-quiet"))
        {
            if (psOptionsForBinary)
                psOptionsForBinary->bQuiet = TRUE;
        }

        else if (EQUAL(papszArgv[i], "-strict"))
        {
            psOptions->bStrict = true;
        }

        else if (i < argc - 1 && EQUAL(papszArgv[i], "-array"))
        {
            ++i;
            psOptions->aosArraySpec.push_back(papszArgv[i]);
        }

        else if (i < argc - 1 && EQUAL(papszArgv[i], "-group"))
        {
            ++i;
            psOptions->aosGroup.push_back(papszArgv[i]);
        }

        else if (i < argc - 1 && EQUAL(papszArgv[i], "-subset"))
        {
            ++i;
            psOptions->aosSubset.push_back(papszArgv[i]);
        }

        else if (i < argc - 1 && EQUAL(papszArgv[i], "-scaleaxes"))
        {
            ++i;
            CPLStringList aosScaleFactors(
                CSLTokenizeString2(papszArgv[i], ",", 0));
            for (int j = 0; j < aosScaleFactors.size(); j++)
            {
                psOptions->aosScaleFactor.push_back(aosScaleFactors[j]);
            }
        }

        else if (i < argc - 1 && EQUAL(papszArgv[i], "-co"))
        {
            ++i;
            psOptions->aosCreateOptions.AddString(papszArgv[i]);
        }

        else if (EQUAL(papszArgv[i], "-oo") && i + 1 < argc)
        {
            ++i;
            if (psOptionsForBinary)
            {
                psOptionsForBinary->aosOpenOptions.AddString(papszArgv[i]);
            }
        }

        else if (i + 1 < argc && EQUAL(papszArgv[i], "-if"))
        {
            i++;
            if (psOptionsForBinary)
            {
                if (GDALGetDriverByName(papszArgv[i]) == nullptr)
                {
                    CPLError(CE_Warning, CPLE_AppDefined,
                             "%s is not a recognized driver", papszArgv[i]);
                }
                psOptionsForBinary->aosAllowInputDrivers.AddString(
                    papszArgv[i]);
            }
        }

        else if (papszArgv[i][0] == '-')
        {
            CPLError(CE_Failure, CPLE_NotSupported, "Unknown option name '%s'",
                     papszArgv[i]);
            GDALMultiDimTranslateOptionsFree(psOptions);
            return nullptr;
        }
        else if (psOptionsForBinary && psOptionsForBinary->osSource.empty())
        {
            psOptionsForBinary->osSource = papszArgv[i];
        }
        else if (psOptionsForBinary && psOptionsForBinary->osDest.empty())
        {
            psOptionsForBinary->osDest = papszArgv[i];
        }
        else
        {
            CPLError(CE_Failure, CPLE_NotSupported,
                     "Too many command options '%s'", papszArgv[i]);
            GDALMultiDimTranslateOptionsFree(psOptions);
            return nullptr;
        }
    }

    if (!psOptions->aosArraySpec.empty() && !psOptions->aosGroup.empty())
    {
        CPLError(CE_Failure, CPLE_NotSupported,
                 "-array and -group are mutually exclusive");
        GDALMultiDimTranslateOptionsFree(psOptions);
        return nullptr;
    }

    if (psOptionsForBinary)
    {
        psOptionsForBinary->bUpdate = psOptions->bUpdate;
        if (!psOptions->osFormat.empty())
            psOptionsForBinary->osFormat = psOptions->osFormat;
    }

    return psOptions;
}

/************************************************************************/
/*                     GDALMultiDimTranslateOptionsFree()               */
/************************************************************************/

/**
 * Frees the GDALMultiDimTranslateOptions struct.
 *
 * @param psOptions the options struct for GDALMultiDimTranslate().
 *
 * @since GDAL 3.1
 */

void GDALMultiDimTranslateOptionsFree(GDALMultiDimTranslateOptions *psOptions)
{
    delete psOptions;
}

/************************************************************************/
/*               GDALMultiDimTranslateOptionsSetProgress()              */
/************************************************************************/

/**
 * Set a progress function.
 *
 * @param psOptions the options struct for GDALMultiDimTranslate().
 * @param pfnProgress the progress callback.
 * @param pProgressData the user data for the progress callback.
 *
 * @since GDAL 3.1
 */

void GDALMultiDimTranslateOptionsSetProgress(
    GDALMultiDimTranslateOptions *psOptions, GDALProgressFunc pfnProgress,
    void *pProgressData)
{
    psOptions->pfnProgress = pfnProgress;
    psOptions->pProgressData = pProgressData;
}
